KR20180038518A - METHOD AND SYSTEM FOR IMPROVING CONTRAST IN OLED DISPLAY PANEL - Google Patents

Abstract

And a method and system for improving the contrast of an OLED display panel. The method converts a first RGB signal into a HSI color space consisting of a tone amount, a saturation degree amount and a brightness amount, then obtains a histogram of the brightness amount by histogram of the brightness amount, and then, by using the histogram of the brightness amount, The new low driving voltage is obtained through calculation by combining the conversion parameter and the initial low driving voltage and at the same time the tone amount and the saturation amount are kept unchanged and the new brightness amount is obtained by reinforcing the brightness amount, The amount of saturation, the amount of saturation, and the new brightness fraction are converted to the RGB color space to obtain the R'G'B 'signal, then the R'G'B' signal and the new low driving voltage to the pixel driving circuit, The contrast of the panel can be improved, the display quality of the OLED display panel can be improved, It can lower the power consumption of the panel.

Description

METHOD AND SYSTEM FOR IMPROVING CONTRAST IN OLED DISPLAY PANEL

The present invention relates to the field of display technology, and more particularly, to a method and system for improving the contrast of an OLED display panel.

The organic light emitting diode (OLED) display device has a self-emission, a low driving voltage, a high luminous efficiency, a short response time, a high clarity and a high contrast, a near 180 ° viewing angle, And it has various advantages such as a large area full color display, and is recognized as the display device having the greatest potential for development from the industry.

OLED display devices can be divided into passive matrix type OLED (passive matrix OLED) and active matrix type OLED (active matrix OLED, AMOLED) according to the driving method, namely, two types of direct addressing and thin film transistor matrix addressing . Here, AMOLED has pixels arranged in an array, belongs to the active display type, has high foot and efficiency, and is generally used in a super high definition large display device.

AMOLED is a current driving device. When an electric current flows through the organic light emitting diode, the organic light emitting diode emits light, and the light emission brightness is determined by the current passing through the light emitting diode itself. As shown in FIG. 1, the most commonly used AMOLED pixel driving circuit is a TFT (Thin Film Transistor) and a capacitor (2T1C pixel driving circuit). Specifically, the 2T1C pixel driving circuit includes a first thin film transistor T1, a second thin film transistor T2 and a capacitor C, the first thin film transistor T1 is a switching thin film transistor, The transistor T2 is a driving thin film transistor, and the capacitor C is a storage capacitor. The gate of the first thin film transistor T1 is electrically connected to the scan signal GN and the source of the first thin film transistor T1 is electrically connected to the data signal SN. And is electrically connected to one end of the capacitor; The drain of the second thin film transistor T2 is electrically connected to the high driving voltage OVDD, and the source of the second thin film transistor T2 is electrically connected to the anode of the organic light emitting diode D; The cathode of the organic light emitting diode D is electrically connected to the low driving voltage OVSS; One end of the capacitor C is electrically connected to the drain of the first thin film transistor T1 and the other end of the capacitor C is electrically connected to the drain of the second thin film transistor T2. When the AMOLED is to be displayed, the scan signal GN controls the shortening of the first thin film transistor T1 and the data signal SN passes through the first thin film transistor T1 and the gate of the second thin film transistor T2. The first thin film transistor T1 is inactivated and the storage function of the capacitor C allows the gate voltage of the second thin film transistor T2 to still maintain the data signal voltage The second thin film transistor T2 maintains the active state and the driving current Ioled passes through the second thin film transistor T2 and enters the organic light emitting diode D so that the organic light emitting diode D emits light . Herein, the light emission brightness of the organic light emitting diode D is related to the driving current Ioled passing through the organic light emitting diode D, and Ioled is the voltage (Voled) between the anode and the cathode of the organic light emitting diode D, As shown in FIG. 2, as the ΔVoled increases, Ioled also increases continuously, and ΔVoled = Vs-OVSS. Here, Vs is the source voltage of the second thin film transistor T2, OVSS is the low driving voltage, and the electric consumption power P of the organic light emitting diode D is Ioled x? Voled, Similarly, as the Ioled increases, the brightness (Lum) of the organic light emitting diode D gradually increases.

With the development of OLED display technology, consumers' demand for display quality of OLED display panel is gradually increasing. Therefore, it is urgent to further improve the contrast of the OLED display panel so as to improve the display quality of the OLED display panel. The prior art generally performs an integrated contrast enhancement process on an image in an RGB spatial model. This processing method has a defect that the color loss easily occurs. However, the HIS is a color space model implemented by intuitive characteristics of color, and the HIS color space expresses colors using a color hue (H), saturation degree (S), and brightness (I) based on a human start system , The color tone (H), the brightness (I), and the saturation degree (S).

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method of improving the contrast of an OLED display panel which can improve the contrast of an OLED display panel, improve the display quality of the OLED display panel, and reduce the consumption of electricity of the OLED display panel.

It is another object of the present invention to provide a contrast enhancement system for an OLED display panel capable of improving the contrast of an OLED display panel, improving the display quality of the OLED display panel, and lowering the amount of electricity consumed by the OLED display panel.

In order to achieve the above object, the present invention provides a method for improving the contrast of an OLED display panel, comprising the steps of:

Step 1. Provide the initial RGB signal and the initial low driving voltage of the screen to be input to the OLED display panel;

Step 2. Convert the original RGB signal to HSI color space consisting of Hue quantity, Saturation quantity and Brightness quantity;

Step 3. For histograms, proceed to statistics to obtain a histogram of the amount of brightness;

Step 4. The histogram of the amount of brightness is also computed to obtain the transformation parameters;

Step 5. Maintain a constant amount of hue and saturation degree, and reinforce the brightness amount through the contrast enhancement method to obtain a new brightness amount;

Step 6. The transformation parameters and the initial low drive voltage are obtained through a calculation formula: OVSS '= K x X x OVSS, where OVSS' is the new low drive voltage, K is a constant constant value, Conversion parameter, and OVSS is the initial low drive voltage;

Step 7. Convert the tone quantity, saturation quantity and new brightness quantity to the RGB color space to obtain a new R'G'B 'signal, and transfer a new R'G'B' signal and a new low driving voltage to the pixels within the OLED display panel And the OLED display panel displays a new image enhanced by the contrast. The present invention also provides a method of improving the contrast of an OLED display panel.

The concrete procedure for obtaining a new brightness amount by reinforcing the brightness amount through the contrast enhancement method in the step 5 is as follows,

Step 51. Calculate the absolute value Q1 of the difference in the brightness values of the pixels of the two neighboring rows of each same column and the weight k1 of the first brightness value;

The calculation formula of the absolute value Q1 of the difference of the brightness values of the pixels of the two neighboring rows of each same column is:

Q1 = abs (I (i, j) - I (i + 1, j)

The calculation formula of the weight k1 of the first brightness value is:

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Here, the selection range of the absolute value Q1 of the difference in the brightness values of the pixels in the two neighboring rows of the same column is 0 to 255, and n is a positive integer larger than 1;

The cumulative calculation is carried out through the weight k1 of the first brightness value and the brightness values of the pixels in the two neighboring rows of each same column,

이고,

ego,

(I, j) is a brightness value of the i-th row and j-th column pixel, and I (i + 1, j) is a positive integer and indicates the order of the row and column in which the pixel is located, (I, j) to the brightness value I (i + 1) are the brightness values of the i-th row and the j-th column pixel, H1 , j) is the sum of the corresponding pixel quantities;

Step 52, calculate the absolute value Q2 of the difference in brightness values of the pixels in the two neighboring columns of each same row and the weight k2 of the second brightness value;

The calculation formula of the absolute value Q2 of the difference in the brightness values of the pixels in the neighboring two columns of each same row is:

Q2 = abs (I (i, j) - I (i, j + 1)

The calculation formula of the weight k2 of the second brightness value is:

이고,

ego,

Here, the selection range of the absolute value Q2 of the difference between the brightness values of the pixels in the two neighboring columns of the same row is 0 to 255, n is a positive integer larger than 1, and is the same as the selection value in step 51;

The cumulative calculation is performed by the weight k2 of the second brightness value and the brightness values of the pixels in the two neighboring columns of the same row,

이고,

ego,

I (i, j) is a brightness value of a jth column pixel of the i-th row, and I (i, j + 1) is a brightness value of a (I, j) to the brightness value I (i, j + 1) are the brightness values of the i-th row and j + 1 column pixels, H3 ) Is the sum of the corresponding pixel quantities;

Step 53. C1 (Y) in step 51 and C3 (Y) in step 52 are added together to obtain C (Y);

C (Y) = C1 (Y) + C3 (Y)

Step 54. Normalize the maximum value, and the calculation formula is:

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Then, a new brightness value I '= out (I (i, j)) is obtained through table search by obtaining 255 a reinforcement brightness table out (Y) by multiplying N (Y) by 255.

In the step 4, the histogram of the brightness is also calculated to obtain the conversion parameter as follows: First, in the histogram of the brightness amount, the highest brightness value and the highest brightness value are obtained;

(X) = (hist (I)) / Max (I) where X is the transformation parameter and Max (hist )) Is the highest brightness value, and Max (I) is the brightness value having the largest value.

The OLED display panel is an AMOLED display panel.

The pixel driving circuit in the OLED display panel includes a first thin film transistor, a second thin film transistor, and a capacitor. A scan signal is input to the gate of the first thin film transistor, and a new R'G'B ' A data signal is inputted, the drain is electrically connected to the gate of the second thin film transistor and one end of the capacitor; A drain of the second thin film transistor is electrically connected to a high driving voltage, and a source is electrically connected to an anode of the organic light emitting diode; A new low driving voltage is input to the cathode of the organic light emitting diode; One end of the capacitor is electrically connected to the drain of the first thin film transistor, and the other end of the capacitor is electrically connected to the drain of the second thin film transistor.

According to another aspect of the present invention, there is provided a display device including a first switching module for receiving an initial RGB signal and a first low driving voltage of a screen to be input to an OLED display panel and converting an original RGB signal into an HSI color space composed of a tone amount, a saturation degree and a brightness amount;

And a histogram is also subjected to statistical and contrast enhancement processing on the brightness amount to obtain a new brightness amount and a conversion parameter, and a conversion parameter and a first low driving voltage are calculated. The formula OVSS '= K x X x Where OVSS 'is the new low driving voltage, K is the constant value, X is the conversion parameter, and OVSS is the initial low driving voltage, which is used to calculate the new low driving voltage through OVSS;

The contrast enhancing module and the OLED display panel are electrically connected to obtain a new R'G'B 'signal by converting the tone amount, the saturation amount, and the new brightness amount into the RGB color space, and generate a new R'G'B' And a second switching module which is inputted to the pixel driving circuit in the OLED display panel so that the OLED display panel displays a new contrast enhanced image. do.

The computation formula for obtaining the transformation parameters in the contrast enhancement module is X = Max (hist (I)) / Max (I), where X is the transformation parameter and Max (hist Value, and Max (I) is the brightness value having the largest value.

The OLED display panel is an AMOLED display panel.

The pixel driving circuit in the OLED display panel includes a first thin film transistor, a second thin film transistor, and a capacitor. A scan signal is input to the gate of the first thin film transistor, and a new R'G'B ' A data signal is inputted, the drain is electrically connected to the gate of the second thin film transistor and one end of the capacitor; A drain of the second thin film transistor is electrically connected to a high driving voltage, and a source is electrically connected to an anode of the organic light emitting diode; A new low driving voltage is input to the cathode of the organic light emitting diode; One end of the capacitor is electrically connected to the drain of the first thin film transistor, and the other end of the capacitor is electrically connected to the drain of the second thin film transistor.

According to another aspect of the present invention, there is provided a display device including a first switching module for receiving an initial RGB signal and a first low driving voltage of a screen to be input to an OLED display panel and converting an original RGB signal into an HSI color space composed of a tone amount, a saturation degree and a brightness amount;

And a histogram is also subjected to statistical and contrast enhancement processing on the brightness amount to obtain a new brightness amount and a conversion parameter, and a conversion parameter and a first low driving voltage are calculated. The formula OVSS '= K x X x Where OVSS 'is the new low driving voltage, K is the constant value, X is the conversion parameter, and OVSS is the initial low driving voltage, which is used to calculate the new low driving voltage through OVSS;

The contrast enhancing module and the OLED display panel are electrically connected to obtain a new R'G'B 'signal by converting the tone amount, the saturation amount, and the new brightness amount into the RGB color space, and generate a new R'G'B' And a second switching module, which is used to display a new contrast enhanced image of the OLED display panel, which is input to the pixel driving circuit in the OLED display panel,

Here, the calculation formula for obtaining the transformation parameter in the contrast enhancement module is X = Max (hist (I)) / Max (I), where X is the transformation parameter and Max (hist A large number of brightness values, and Max (I) is a brightness value having the largest value;

Here, the OLED display panel is an AMOLED display panel;

Here, a pixel driving circuit in the OLED display panel includes a first thin film transistor, a second thin film transistor, and a capacitor, a scan signal is input to the gate of the first thin film transistor, a new R'G'B ' A drain is electrically connected to a gate of the second thin film transistor and one end of the capacitor; A drain of the second thin film transistor is electrically connected to a high driving voltage, and a source is electrically connected to an anode of the organic light emitting diode; A new low driving voltage is input to the cathode of the organic light emitting diode; Wherein one end of the capacitor is electrically connected to the drain of the first thin film transistor and the other end of the capacitor is electrically connected to the drain of the second thin film transistor.

The present invention provides a method of enhancing the contrast of an OLED display panel, which converts an original RGB signal into an HSI color space composed of a tone amount, a saturation degree amount, and a brightness amount, and then histograms of brightness amounts are also shown by histograms of brightness amounts The conversion parameter is obtained through the histogram of the brightness level, and the new low driving voltage is obtained by combining the conversion parameter and the initial low driving voltage. At the same time, the tone amount and the saturation amount are kept unchanged and the brightness amount is increased To obtain a new brightness quantity, then convert the tone quantity, the saturation quantity and the new brightness quantity to the RGB color space to obtain the R'G'B 'signal, then the R'G'B' The voltage can be enhanced in the pixel driving circuit to improve the contrast of the OLED display panel, Improve the display quality of the play panel and can lower the power consumption of the OLED display panel. The present invention provides a contrast enhancement system for an OLED display panel, can improve the contrast of the OLED display panel, improve the display quality of the OLED display panel, and reduce the electricity consumption of the OLED display panel.

In order to further understand the features and technical features of the present invention, please refer to the detailed description related to the present invention and the accompanying drawings. However, the accompanying drawings are to be interpreted only for the purpose of illustration and description, and are not to be construed as limiting the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
In the accompanying drawings,
1 is a circuit diagram of a conventional AMOLED 2T1C pixel driving circuit.
2 is a graph showing the relationship between the voltage at both ends of the organic light emitting diode and the driving current.
3 is a graph showing the relationship between the driving current and the brightness of the organic light emitting diode.
4 is a flowchart of a method for improving the contrast of the OLED display panel of the present invention.
5 is a signal conversion schematic diagram of a contrast enhancement method of an OLED display panel according to the present invention.
6 is a schematic diagram of a screen to be input to the OLED display panel at the initial RGB signal and the initial low driving voltage.
7 is a histogram of the amount of brightness in step 3 of the contrast enhancement method of the OLED display panel of the present invention.
8 is a histogram of a new brightness amount obtained after the contrast enhancement process in step 5 of the method of enhancing the contrast of the OLED display panel of the present invention.
9 is a schematic view of a screen input to the OLED display panel after being processed by the contrast enhancement method of the OLED display panel of the present invention.
10 is a structural block diagram of a contrast enhancement system of an OLED display panel of the present invention.
11 is a circuit diagram of a 2T1C pixel driving circuit in a contrast enhancement system of an OLED display panel according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 and 5, the present invention first provides a method for improving the contrast of an OLED display panel, and includes the following steps.

Step 1. Provide the initial RGB signal and initial low driving voltage (OVSS) of the screen to be input to the OLED display panel.

As shown in FIG. 6, the contrast of the screen to be input to the OLED display panel is relatively low at the initial RGB signal and the initial low driving voltage (OVSS), which affects the display quality of the OLED display panel.

Step 2. Convert the original RGB signal to HSI color space consisting of Hue quantity (H), Saturation quantity (S) and Brightness quantity (I);

Step 3: As shown in FIG. 7, the histogram of the brightness quantity I is also progressed to obtain a histogram of the brightness quantity I, and the brightness quantity I is relatively concentrated in the histogram diagram, It appears to be uniformly distributed.

Step 4. From the histogram of the amount of brightness shown in Fig. 7, a transformation parameter is obtained through calculation;

Specifically, the process of obtaining the conversion parameter from the histogram of the brightness amount (I) in step 4 is as follows:

First, in the histogram of brightness (I), the highest brightness value and the highest brightness value are obtained;

(X) = (hist (I)) / Max (I) where X is the transformation parameter and Max (hist )) Is the highest brightness value, and Max (I) is the brightness value having the largest value.

Step 5. Maintain the color tone amount H and saturation degree amount S unchanged and reinforce the brightness amount I to obtain a new brightness amount I '.

Specifically, the concrete procedure for obtaining a new brightness amount I 'by reinforcing the brightness amount I through the contrast enhancement method in the step 5 is as follows.

Step 51. Calculate the absolute value Q1 of the difference in the brightness values of the pixels of the two neighboring rows of each same column and the weight k1 of the first brightness value;

The calculation formula of the absolute value Q1 of the difference of the brightness values of the pixels of the two neighboring rows of each same column is:

Q1 = abs (I (i, j) - I (i + 1, j)

The calculation formula of the weight k1 of the first brightness value is:

이고,

ego,

Here, the selection range of the absolute value Q1 of the difference in the brightness values of the pixels in the two neighboring rows of the same column is 0 to 255, and n is a positive integer larger than 1;

The cumulative calculation is carried out through the weight k1 of the first brightness value and the brightness values of the pixels in the two neighboring rows of each same column,

이고,

ego,

(I, j) is a brightness value of the i-th row and j-th column pixel, and I (i + 1, j) is a positive integer and indicates the order of the row and column in which the pixel is located, (I, j) to the brightness value I (i + 1) are the brightness values of the i-th row and the j-th column pixel, H1 , j) is the sum of the corresponding pixel quantities;

Step 52. Compute the absolute value Q2 of the difference in brightness values of the pixels in the two neighboring columns of each same row and the weight k2 of the second brightness value;

The calculation formula of the absolute value Q2 of the difference in the brightness values of the pixels in the neighboring two columns of each same row is:

Q2 = abs (I (i, j) - I (i, j + 1)

The calculation formula of the weight k2 of the second brightness value is:

이고,

ego,

Here, the selection range of the absolute value Q2 of the difference between the brightness values of the pixels in the two neighboring columns of the same row is 0 to 255, n is a positive integer larger than 1, and is the same as the selection value in step 51;

The cumulative calculation is performed by the weight k2 of the second brightness value and the brightness values of the pixels in the two neighboring columns of the same row,

이고,

ego,

I (i, j) is a brightness value of a jth column pixel of the i-th row, and I (i, j + 1) (I, j) is the brightness value of the i-th row of the (j + 1) -th column pixel, H3 (a) is the number of pixels whose brightness value is a, 1) is the sum of the corresponding pixel quantities;

Step 53. C1 (Y) in step 51 and C3 (Y) in step 52 are added together to obtain C (Y);

C (Y) = C1 (Y) + C3 (Y)

Step 54. Normalize the maximum value, and the calculation formula is:

이고,

ego,

255 is also added to N (Y) to obtain a new brightness value I '= out (I (i, j)) through a table search.

The histogram of the new brightness amount (I) 'subjected to contrast enhancement through step 5 is as shown in FIG. 8, and the new brightness amount (I) after processing is more evenly distributed in the histogram.

Step 6. The conversion parameter and the initial low drive voltage obtain a new low drive voltage OVSS 'via the calculation formula: OVSS' = K x X x OVSS, where OVSS 'is the new low drive voltage, K is a constant constant value, X is the transformation parameter, and OVSS is the initial low drive voltage.

Step 7. Convert the color tone H, the saturation degree S and the new brightness amount I 'to the RGB color space to obtain a new R'G'B' signal and add a new R'G'B ' A low driving voltage OVSS 'is input to the pixel driving circuit in the OLED display panel, and the OLED display panel displays the contrast enhanced new image shown in FIG. 9, thereby improving the display quality of the OLED display panel.

Further, the OLED display panel can select an AMOLED display panel. 11, a pixel driving circuit in the OLED display panel can select a 2T1C pixel driving circuit and includes a first thin film transistor T1, a second thin film transistor T2 and a capacitor C, A scan signal GN is input to the gate of the first thin film transistor T1, a data signal SN is input to the source of the second thin film transistor T2, A gate of the capacitor C and one end of the capacitor C; The drain of the second thin film transistor T2 is electrically connected to the high driving voltage OVDD, and the source of the second thin film transistor T2 is electrically connected to the anode of the organic light emitting diode D; A new low driving voltage OVSS 'is input to the cathode of the organic light emitting diode D; One end of the capacitor C is electrically connected to the drain of the first thin film transistor T1 and the other end of the capacitor C is electrically connected to the drain of the second thin film transistor T2.

It is worth mentioning that since a new low driving voltage (OVSS ') is input to the cathode of the organic light emitting diode D, the voltage difference DELTA Voled between the anode and the cathode of the organic light emitting diode D can be lowered, The OLED display panel can be reduced in electricity consumption.

10, 11, and 5, based on the same inventive idea, the present invention also provides a contrast enhancement system for an OLED display panel, and includes the following configuration.

The first conversion module receives the first RGB signal and the first low driving voltage (OVSS) of the screen to be input to the OLED display panel and outputs the initial RGB signal to the first RGB switching unit including the color tone amount H, the saturation degree amount S and the brightness amount I HSI color space.

The contrast enhancement module is electrically connected to the first conversion module and obtains a new brightness amount (I ') and a conversion parameter (X) by performing histogram processing and contrast enhancement processing on the brightness amount, ) And the initial low drive voltage (OVSS) are calculated through the formula OVSS '= K x X x OVSS to obtain a new low drive voltage. Where OVSS 'is the new low drive voltage, K is the constant value, X is the transformation parameter, and OVSS is the initial low drive voltage.

Specifically, the contrast enhancement module obtains a histogram of the brightness level (I) by histogram of the brightness level (I), and obtains a brightness value and a numerical value having the largest amount in the histogram of the brightness level (I) Max (hist (I)) / Max (I) is obtained by obtaining the maximum brightness value, and also obtaining the transformation parameter X by calculating the brightness value with the greatest quantity and the brightness with the greatest numerical value. Where Max (hist (I)) is the brightness value with the greatest quantity, and Max (I) is the brightness value with the greatest numerical value.

The second switching module is electrically connected to the contrast enhancing module and the OLED display panel and converts the color tone amount H, the saturation degree amount S and the new brightness amount I 'into the RGB color space to generate a new R'G' B 'signal, and a new R'G'B' signal and a new low driving voltage (OVSS ') are input to the pixel driving circuit in the OLED display panel so that the OLED display panel displays a new contrast enhanced image.

Further, the OLED display panel can select an AMOLED display panel. As shown in FIG. 11, a pixel driving circuit in the OLED display panel can select a 2T1C pixel driving circuit, and includes a first thin film transistor T1, a second thin film transistor T2, and a capacitor C. A scan signal GN is input to the gate of the first thin film transistor T1, a data signal SN is input to the source of the second thin film transistor T2, And the gate of the capacitor C and the one end of the capacitor C. The drain of the second thin film transistor T2 is electrically connected to the high driving voltage OVDD and the source thereof is electrically connected to the anode of the organic light emitting diode D. A new low driving voltage OVSS 'is input to the cathode of the organic light emitting diode D, one end of the capacitor C is electrically connected to the drain of the first thin film transistor T1, And is electrically connected to the drain of the transistor T2.

The contrast enhancement system of the OLED display panel of the present invention converts the first RGB signal into the HSI color space composed of the tone amount (H), saturation degree amount (S) and brightness amount (I) through the first conversion module, The histogram is also subjected to the statistical and contrast enhancement processing to obtain a new brightness amount I 'and a conversion parameter X through the histogram and the transformation parameter X and the initial low driving voltage OVSS The saturation degree amount S and the new brightness amount I 'into the RGB color space through the second conversion module to obtain a new low driving voltage OVSS' G'B 'signal, a new R'G'B' signal and a new low driving voltage (OVSS ') into the pixel driving circuit in the OLED display panel, so that the OLED display panel displays a new contrast enhanced image This is possible to do. Since a new low driving voltage OVSS 'is input to the cathode of the organic light emitting diode D, the voltage difference ΔVoled between the anode and the cathode of the organic light emitting diode D can be lowered, .

According to an aspect of the present invention, there is provided a method of improving contrast of an OLED display panel, comprising: converting an original RGB signal into an HSI color space including a tone amount, a saturation degree, and a brightness amount; , Obtains a histogram of the histogram of the brightness, obtains the transformation parameter through the histogram of the brightness, combines the transformation parameter with the initial low driving voltage to obtain a new low driving voltage through calculation, keeps the tone amount and saturation amount unchanged, The brightness amount is increased to obtain a new brightness amount, and then the color tone amount, the saturation degree amount and the new brightness amount are converted into the RGB color space to obtain the R'G'B 'signal, and then the R'G'B' And a new low driving voltage to the pixel driving circuit to improve the contrast of the OLED display panel It was improve the display quality of the OLED display panel, and can reduce the power consumption of the OLED display panel. The present invention provides a contrast enhancement system for an OLED display panel, can improve the contrast of the OLED display panel, improve the display quality of the OLED display panel, and reduce the electricity consumption of the OLED display panel.

It will be apparent to those skilled in the art that various modifications and variations are possible in light of the teachings of the present invention and that all such modifications and variations are intended to be included within the scope of the claims of the invention do.

Claims (10)

A method for enhancing contrast of an OLED display panel, comprising the steps of:
Step 1. Provide the initial RGB signal and the initial low driving voltage of the screen to be input to the OLED display panel;
Step 2. Convert the original RGB signal to HSI color space consisting of Hue quantity, Saturation quantity and Brightness quantity;
Step 3. Perform a histogram for the amount of brightness to obtain a histogram of the amount of brightness;
Step 4. The histogram of the amount of brightness is also computed to obtain the transformation parameters;
Step 5. Maintain a constant amount of hue and saturation degree, and reinforce the brightness amount through the contrast enhancement method to obtain a new brightness amount;
Step 6. The transformation parameters and the initial low drive voltage are obtained through a calculation formula: OVSS '= K x X x OVSS, where OVSS' is the new low drive voltage, K is a constant constant value, Conversion parameter, and OVSS is the initial low drive voltage;
Step 7. Convert the tone quantity, saturation quantity and new brightness quantity to the RGB color space to obtain a new R'G'B 'signal, and transfer a new R'G'B' signal and a new low driving voltage to the pixels within the OLED display panel And the OLED display panel displays a new image with contrast enhancement. The method according to claim 1,
The concrete procedure for obtaining a new brightness amount by reinforcing the brightness amount through the contrast enhancement method in the step 5 is as follows,
Step 51. Calculate the absolute value Q1 of the difference in the brightness values of the pixels of the two neighboring rows of each same column and the weight k1 of the first brightness value;
The calculation formula of the absolute value Q1 of the difference of the brightness values of the pixels of the two neighboring rows of each same column is:
Q1 = abs (I (i, j) - I (i + 1, j)
The calculation formula of the weight k1 of the first brightness value is:

ego,
Here, the selection range of the absolute value Q1 of the difference in the brightness values of the pixels in the two neighboring rows of the same column is 0 to 255, and n is a positive integer larger than 1;
The cumulative calculation is carried out through the weight k1 of the first brightness value and the brightness values of the pixels in the two neighboring rows of each same column,

ego,
(I, j) is a brightness value of the i-th row and j-th column pixel, and I (i + 1, j) is a positive integer and indicates the order of the row and column in which the pixel is located, (I, j) to the brightness value I (i + 1) are the brightness values of the i-th row and the j-th column pixel, H1 , j) is the sum of the corresponding pixel quantities;
Step 52. Compute the absolute value Q2 of the difference in brightness values of the pixels in the two neighboring columns of each same row and the weight k2 of the second brightness value;
The calculation formula of the absolute value Q2 of the difference in the brightness values of the pixels in the neighboring two columns of each same row is:
Q2 = abs (I (i, j) - I (i, j + 1)
The calculation formula of the weight k2 of the second brightness value is:

ego,
Here, the selection range of the absolute value Q2 of the difference between the brightness values of the pixels in the two neighboring rows of the same row is 0 to 255, n is a positive integer larger than 1, and is the same as the selection value in step 51;
The cumulative calculation is performed by the weight k2 of the second brightness value and the brightness values of the pixels in the two neighboring columns of the same row,

ego,
I (i, j) is a brightness value of a jth column pixel of the i-th row, and I (i, j + 1) is a brightness value of a (I, j) to the brightness value I (i, j + 1) are the brightness values of the i-th row and j + 1 column pixels, H3 ) Is the sum of the corresponding pixel quantities;
Step 53. C1 (Y) in step 51 and C3 (Y) in step 52 are added together to obtain C (Y);
C (Y) = C1 (Y) + C3 (Y)
Step 54. Normalize the maximum value, and the calculation formula is:

ego,
(I (i, j)) is obtained by multiplying N (Y) by 255 to obtain a reinforcing brightness table out (Y) by calculation, and obtaining a new brightness value I '= out A method of improving contrast of a panel. The method according to claim 1,
The specific procedure for obtaining the transformation parameters through calculation of the histogram of the brightness quantities in step 4 is as follows:
First, the brightness value with the highest amount and the brightness value with the highest value are obtained in the histogram of the brightness amount;
(X) = (hist (I)) / Max (I) where X is the transformation parameter and Max (hist ) Is a brightness value having the largest amount, and Max (I) is a brightness value having the largest value. The method according to claim 1,
Wherein the OLED display panel is an AMOLED display panel. The method of claim 4,
The pixel driving circuit in the OLED display panel includes a first thin film transistor, a second thin film transistor, and a capacitor. A scan signal is input to the gate of the first thin film transistor, and a new R'G'B ' A data signal is inputted, the drain is electrically connected to the gate of the second thin film transistor and one end of the capacitor; A drain of the second thin film transistor is electrically connected to a high driving voltage, and a source is electrically connected to an anode of the organic light emitting diode; A new low driving voltage is input to the cathode of the organic light emitting diode; Wherein one end of the capacitor is electrically connected to the drain of the first thin film transistor and the other end of the capacitor is electrically connected to the drain of the second thin film transistor. A first conversion module for receiving the first RGB signal and the first low driving voltage of the screen to be input to the OLED display panel and converting the initial RGB signal into an HSI color space composed of a tone amount, a saturation degree, and a brightness amount;
And a histogram is also subjected to statistical and contrast enhancement processing on the brightness amount to obtain a new brightness amount and a conversion parameter, and a conversion parameter and a first low driving voltage are calculated. The formula OVSS '= K x X x Where OVSS 'is the new low driving voltage, K is the constant value, X is the conversion parameter, and OVSS is the initial low driving voltage, which is used to calculate the new low driving voltage through OVSS;
The contrast enhancing module and the OLED display panel are electrically connected to obtain a new R'G'B 'signal by converting the tone amount, the saturation amount, and the new brightness amount into the RGB color space, and generate a new R'G'B' Wherein the OLED display panel includes a second switching module that is used to display a new image that is input to the pixel driving circuit in the OLED display panel and the contrast of the OLED display panel is enhanced. The method of claim 6,
The computation formula for obtaining the transformation parameters in the contrast enhancement module is X = Max (hist (I)) / Max (I), where X is the transformation parameter and Max (hist And Max (I) is a brightness value having the largest value. The method of claim 6,
Wherein the OLED display panel is an AMOLED display panel. The method of claim 8,
The pixel driving circuit in the OLED display panel includes a first thin film transistor, a second thin film transistor, and a capacitor. A scan signal is input to the gate of the first thin film transistor, and a new R'G'B ' A data signal is inputted, the drain is electrically connected to the gate of the second thin film transistor and one end of the capacitor; A drain of the second thin film transistor is electrically connected to a high driving voltage, and a source is electrically connected to an anode of the organic light emitting diode; A new low driving voltage is input to the cathode of the organic light emitting diode; Wherein one end of the capacitor is electrically connected to the drain of the first thin film transistor and the other end of the capacitor is electrically connected to the drain of the second thin film transistor. A first conversion module for receiving the first RGB signal and the first low driving voltage of the screen to be input to the OLED display panel and converting the initial RGB signal into an HSI color space composed of a tone amount, a saturation degree, and a brightness amount;
And a histogram is also subjected to statistical and contrast enhancement processing on the brightness amount to obtain a new brightness amount and a conversion parameter, and a conversion parameter and a first low driving voltage are calculated. The formula OVSS '= K x X x Where OVSS 'is the new low driving voltage, K is the constant value, X is the conversion parameter, and OVSS is the initial low driving voltage, which is used to calculate the new low driving voltage through OVSS;
The contrast enhancing module and the OLED display panel are electrically connected to obtain a new R'G'B 'signal by converting the tone amount, the saturation amount, and the new brightness amount into the RGB color space, and generate a new R'G'B' And a second switching module, which is used to display a new contrast enhanced image of the OLED display panel, which is input to the pixel driving circuit in the OLED display panel,
Here, the calculation formula for obtaining the transformation parameter in the contrast enhancement module is X = Max (hist (I)) / Max (I), where X is the transformation parameter and Max (hist A large number of brightness values, and Max (I) is a brightness value having the largest value;
Here, the OLED display panel is an AMOLED display panel;
Here, a pixel driving circuit in the OLED display panel includes a first thin film transistor, a second thin film transistor, and a capacitor, a scan signal is input to the gate of the first thin film transistor, a new R'G'B ' A drain is electrically connected to a gate of the second thin film transistor and one end of the capacitor; A drain of the second thin film transistor is electrically connected to a high driving voltage, and a source is electrically connected to an anode of the organic light emitting diode; A new low driving voltage is input to the cathode of the organic light emitting diode; Wherein one end of the capacitor is electrically connected to the drain of the first thin film transistor and the other end of the capacitor is electrically connected to the drain of the second thin film transistor.

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